Estimation of the traffic related anthropogenic heat release using BTEX measurements - A case study in Abu Dhabi

The rate of release of anthropogenic heat-heat that results fromhuman activity (mainly motorized transportation and air-conditioning)-is a crucial input to urban microclimate models. Traffic related anthropogenic heat, in particular, is notoriously difficult to estimate and often evades systematic treatment, especially in developing countries where traffic intensity indicators are either not routinely recorded or not publicly available. The most challenging aspect is the derivation of a typical daily profile of the anthropogenic heat release rate, which is essential for the accuracy of the urban microclimate models, given the dynamic nature of the heat island phenomenon. The basic premise of this study is that the traffic intensity profile, and hence the traffic related anthropogenic heat rate profile(s), can be inferred from urban air pollutant concentration measurements. Volatile organic compounds such as Benzene, Toluene, Ethylbenzene and m-, p-, o-Xylenes (BTEX) are the most relevant in this context. A newmethodology is proposed for deriving normalized daily profile(s) of traffic related heat release rates using one year of hourly BTEX measurements recorded by a road-side air quality monitoring station in downtown Abu Dhabi. These normalized profiles are calibrated using average traffic related heat release rates derived from a 'top-down' analysis of aggregate transportation data. The calibrated daily profiles are subsequently validated according to a 'bottom-up' approach whereby the total number of circulating vehicles at a specific time of the day is estimated from satellite images of several carefully selected representative urban districts. The daily traffic related anthropogenic heat rate profile(s) derived according to this methodology are consistent with expectations and comparable to those reported in the literature for comparable cities. The daily profile presents two peaks, the first at about 8 am and the second, more pronounced, at about 9 pm. The average workday sensible heat release rate is estimated to be 11.4 W/m(2) with an evening peak of about 19 W/m(2). The peak latent heat rate is approximately 1.9 W/m(2) which amounts to about 10% of the sensible rate. (C) 2017 Elsevier B.V. All rights reserved.